Handle switching switching mmu contexts and mapping the new primary tsb.

Rework some register usage and code placement.  Comment.
This commit is contained in:
jake 2001-08-06 02:31:30 +00:00
parent 2542888732
commit 20fa2f356a
2 changed files with 184 additions and 28 deletions

View File

@ -27,6 +27,7 @@
*/
#include <machine/asmacros.h>
#include <machine/asi.h>
#include "assym.s"
@ -70,32 +71,109 @@
.endm
ENTRY(cpu_switch)
/*
* Choose a new process. If its the same as the current one, do
* nothing.
*/
save %sp, -CCFSZ, %sp
call chooseproc
ldx [PCPU(CURPROC)], %l0
cmp %l0, %o0
be,pn %xcc, 3f
ldx [%l0 + P_FRAME], %l2
ldx [%l2 + TF_TSTATE], %l2
andcc %l2, TSTATE_PEF, %l2
EMPTY
/*
* If the process was using floating point, save its context.
*/
ldx [%l0 + P_FRAME], %l1
ldx [%l1 + TF_TSTATE], %l1
andcc %l1, TSTATE_PEF, %l1
be,pt %xcc, 1f
ldx [PCPU(CURPCB)], %l1
savefp %l1 + PCB_FPSTATE, %l3
ldx [PCPU(CURPCB)], %l2
savefp %l2 + PCB_FPSTATE, %l3
/*
* Flush the windows out to the stack and save the current frame
* pointer and program counter.
*/
1: flushw
wrpr %g0, 0, %cleanwin
stx %fp, [%l1 + PCB_FP]
stx %i7, [%l1 + PCB_PC]
stx %fp, [%l2 + PCB_FP]
stx %i7, [%l2 + PCB_PC]
/*
* Load the new process's frame pointer and program counter, and set
* the current process and pcb.
*/
ldx [%o0 + P_ADDR], %o1
ldx [%o1 + U_PCB + PCB_FP], %fp
ldx [%o1 + U_PCB + PCB_PC], %i7
ldx [%o0 + P_FRAME], %l2
ldx [%l2 + TF_TSTATE], %l2
andcc %l2, TSTATE_PEF, %l2
sub %fp, CCFSZ, %sp
stx %o0, [PCPU(CURPROC)]
stx %o1, [PCPU(CURPCB)]
/*
* Point to the new process's vmspace and load its vm context number.
* If its nucleus context we are done.
*/
ldx [%o0 + P_VMSPACE], %o2
lduw [%o2 + VM_PMAP + PM_CONTEXT], %o3
brz,pn %o3, 3f
EMPTY
/*
* If the new process was using floating point, restore its context.
*/
ldx [%o0 + P_FRAME], %o4
ldx [%o4 + TF_TSTATE], %o4
andcc %o4, TSTATE_PEF, %o4
be,pt %xcc, 2f
stx %o0, [PCPU(CURPROC)]
restrfp %o1 + U_PCB + PCB_FPSTATE, %l4
2: stx %o1, [PCPU(CURPCB)]
sub %fp, CCFSZ, %sp
nop
restrfp %o1 + U_PCB + PCB_FPSTATE, %o4
/*
* Point to the current process's vmspace and load the hardware
* context number. If its the same as the new process, we are
* done.
*/
ldx [%l0 + P_VMSPACE], %l1
lduw [%l1 + VM_PMAP + PM_CONTEXT], %l3
cmp %l3, %o3
be,pn %xcc, 3f
EMPTY
/*
* Install the new primary context.
*/
2: mov AA_DMMU_PCXR, %o1
stxa %o3, [%o1] ASI_DMMU
flush %o0
/*
* Map the primary user tsb.
*/
setx TSB_USER_MIN_ADDRESS, %o1, %o0
mov AA_DMMU_TAR, %o1
stxa %o0, [%o1] ASI_DMMU
mov TLB_DAR_TSB_USER_PRIMARY, %o1
ldx [%o2 + VM_PMAP + PM_STTE + TTE_DATA], %o3
stxa %o3, [%o1] ASI_DTLB_DATA_ACCESS_REG
membar #Sync
/*
* If the primary tsb page hasn't been initialized, initialize it
* and update the bit in the tte.
*/
andcc %o3, TD_INIT, %g0
bnz %xcc, 3f
or %o3, TD_INIT, %o3
stx %o3, [%o2 + VM_PMAP + PM_STTE + TTE_DATA]
call tsb_page_init
clr %o1
/*
* Done. Return and load the new process's window from the stack.
*/
3: ret
restore
END(cpu_switch)

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@ -27,6 +27,7 @@
*/
#include <machine/asmacros.h>
#include <machine/asi.h>
#include "assym.s"
@ -70,32 +71,109 @@
.endm
ENTRY(cpu_switch)
/*
* Choose a new process. If its the same as the current one, do
* nothing.
*/
save %sp, -CCFSZ, %sp
call chooseproc
ldx [PCPU(CURPROC)], %l0
cmp %l0, %o0
be,pn %xcc, 3f
ldx [%l0 + P_FRAME], %l2
ldx [%l2 + TF_TSTATE], %l2
andcc %l2, TSTATE_PEF, %l2
EMPTY
/*
* If the process was using floating point, save its context.
*/
ldx [%l0 + P_FRAME], %l1
ldx [%l1 + TF_TSTATE], %l1
andcc %l1, TSTATE_PEF, %l1
be,pt %xcc, 1f
ldx [PCPU(CURPCB)], %l1
savefp %l1 + PCB_FPSTATE, %l3
ldx [PCPU(CURPCB)], %l2
savefp %l2 + PCB_FPSTATE, %l3
/*
* Flush the windows out to the stack and save the current frame
* pointer and program counter.
*/
1: flushw
wrpr %g0, 0, %cleanwin
stx %fp, [%l1 + PCB_FP]
stx %i7, [%l1 + PCB_PC]
stx %fp, [%l2 + PCB_FP]
stx %i7, [%l2 + PCB_PC]
/*
* Load the new process's frame pointer and program counter, and set
* the current process and pcb.
*/
ldx [%o0 + P_ADDR], %o1
ldx [%o1 + U_PCB + PCB_FP], %fp
ldx [%o1 + U_PCB + PCB_PC], %i7
ldx [%o0 + P_FRAME], %l2
ldx [%l2 + TF_TSTATE], %l2
andcc %l2, TSTATE_PEF, %l2
sub %fp, CCFSZ, %sp
stx %o0, [PCPU(CURPROC)]
stx %o1, [PCPU(CURPCB)]
/*
* Point to the new process's vmspace and load its vm context number.
* If its nucleus context we are done.
*/
ldx [%o0 + P_VMSPACE], %o2
lduw [%o2 + VM_PMAP + PM_CONTEXT], %o3
brz,pn %o3, 3f
EMPTY
/*
* If the new process was using floating point, restore its context.
*/
ldx [%o0 + P_FRAME], %o4
ldx [%o4 + TF_TSTATE], %o4
andcc %o4, TSTATE_PEF, %o4
be,pt %xcc, 2f
stx %o0, [PCPU(CURPROC)]
restrfp %o1 + U_PCB + PCB_FPSTATE, %l4
2: stx %o1, [PCPU(CURPCB)]
sub %fp, CCFSZ, %sp
nop
restrfp %o1 + U_PCB + PCB_FPSTATE, %o4
/*
* Point to the current process's vmspace and load the hardware
* context number. If its the same as the new process, we are
* done.
*/
ldx [%l0 + P_VMSPACE], %l1
lduw [%l1 + VM_PMAP + PM_CONTEXT], %l3
cmp %l3, %o3
be,pn %xcc, 3f
EMPTY
/*
* Install the new primary context.
*/
2: mov AA_DMMU_PCXR, %o1
stxa %o3, [%o1] ASI_DMMU
flush %o0
/*
* Map the primary user tsb.
*/
setx TSB_USER_MIN_ADDRESS, %o1, %o0
mov AA_DMMU_TAR, %o1
stxa %o0, [%o1] ASI_DMMU
mov TLB_DAR_TSB_USER_PRIMARY, %o1
ldx [%o2 + VM_PMAP + PM_STTE + TTE_DATA], %o3
stxa %o3, [%o1] ASI_DTLB_DATA_ACCESS_REG
membar #Sync
/*
* If the primary tsb page hasn't been initialized, initialize it
* and update the bit in the tte.
*/
andcc %o3, TD_INIT, %g0
bnz %xcc, 3f
or %o3, TD_INIT, %o3
stx %o3, [%o2 + VM_PMAP + PM_STTE + TTE_DATA]
call tsb_page_init
clr %o1
/*
* Done. Return and load the new process's window from the stack.
*/
3: ret
restore
END(cpu_switch)